Phosphorus cycling during the Hirnantian glaciation

Müller J, Joachimski M, Lehnert O, Männik P, Sun Y (2024)


Publication Language: English

Publication Type: Journal article

Publication year: 2024

Journal

Book Volume: 634

Article Number: 111906

DOI: 10.1016/j.palaeo.2023.111906

Abstract


Unlike other mass extinctions of the Phanerozoic, the Late Ordovician mass extinction took place during an icehouse interval, accompanied by the glaciation of Gondwana. Ice sheets reached their maximum during the Hirnantian and global sea-level dropped substantially. Consequently, the shallow tropical shelf environments of Laurentia and Baltica became subaerially exposed or remaining submerged shelves were characterized by very shallow water-depths. Redox proxies suggest that most shallow shelf settings were well oxygenated to that time, while the global extent of anoxic environments increased, implying that deoxygenation was confined to the open ocean. We speculate that the burial rate of the nutrient phosphorus (P) on shelves was minimal during the Hirnantian glacial maximum (HGM) due to bypass of the shelves in respect to the incoming riverine dissolved load. Hence, a large excess of bioavailable P entering the open ocean would have stimulated phytoplankton production which lowered oxygen concentrations by aerobic respiration.


In order to test this hypothesis, we determined reactive P (Preact) contents in two low-latitude carbonate successions (Anticosti Island and Estonia) spanning the HGM. Moreover, we measured total organic carbon (C) concentrations and calculated C/P ratios to evaluate the burial efficiency of P. Samples from both sites are characterized by overall low Preact contents. We observe a decreasing trend in Preact towards the HGM, reaching a minimum during the initial transgression thereafter. C/P ratios suggest efficient P-burial throughout the study interval and, hence, Preact contents are assumed to be a direct measure of primary productivity, P-availability, and P-burial. Using the Preact concentrations, we modeled shelf P-burial fluxes with estimates for global shelf area and sedimentation rates. The model suggests that shelf P-burial fluxes around the HGM were approximately halved due to a reduced shelf area and minimum Preact contents. With the assumption of a constant P-input to the ocean, the proposed scenario serves as a plausible explanation for the observed redox gradients.

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APA:

Müller, J., Joachimski, M., Lehnert, O., Männik, P., & Sun, Y. (2024). Phosphorus cycling during the Hirnantian glaciation. Palaeogeography, Palaeoclimatology, Palaeoecology, 634. https://doi.org/10.1016/j.palaeo.2023.111906

MLA:

Müller, Johann, et al. "Phosphorus cycling during the Hirnantian glaciation." Palaeogeography, Palaeoclimatology, Palaeoecology 634 (2024).

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